| review article | Q7318358 |
| scholarly article | Q13442814 |
| P50 | author | Emily A Bruce | Q55445089 |
| Paul Digard | Q40060981 | ||
| P2093 | author name string | Mary W McCaffrey | |
| Amanda Stuart | |||
| P2860 | cites work | Apical transport of influenza A virus ribonucleoprotein requires Rab11-positive recycling endosome | Q21560807 |
| The FIP3-Rab11 protein complex regulates recycling endosome targeting to the cleavage furrow during late cytokinesis. | Q24322791 | ||
| Requirement of myosin Vb.Rab11a.Rab11-FIP2 complex in cholesterol-regulated translocation of NPC1L1 to the cell surface | Q24338831 | ||
| Influenza virus M2 protein mediates ESCRT-independent membrane scission | Q24634367 | ||
| No strings attached: the ESCRT machinery in viral budding and cytokinesis | Q24655056 | ||
| Myosin Vb mobilizes recycling endosomes and AMPA receptors for postsynaptic plasticity | Q24655632 | ||
| Trafficking of Sendai virus nucleocapsids is mediated by intracellular vesicles | Q27325499 | ||
| Isoprenylation of Rab proteins possessing a C-terminal CaaX motif | Q28262615 | ||
| The Rab11 pathway is required for influenza A virus budding and filament formation | Q28278360 | ||
| A Rab11- and microtubule-dependent mechanism for cytoplasmic transport of influenza A virus viral RNA | Q28305057 | ||
| Using single-particle tracking to study nuclear trafficking of viral genes | Q30447392 | ||
| Dynamics of filamentous viral RNPs prior to egress | Q30479755 | ||
| Respiratory syncytial virus uses a Vps4-independent budding mechanism controlled by Rab11-FIP2 | Q30482790 | ||
| Characterization of the cord-like structures emerging from the surface of influenza C virus-infected cells | Q34111629 | ||
| Rab11-FIP3 localises to a Rab11-positive pericentrosomal compartment during interphase and to the cleavage furrow during cytokinesis | Q34322478 | ||
| Apical recycling systems regulate directional budding of respiratory syncytial virus from polarized epithelial cells | Q34391467 | ||
| Influenza virus budding does not require a functional AAA+ ATPase, VPS4 | Q34689103 | ||
| The Rip11/Rab11-FIP5 and kinesin II complex regulates endocytic protein recycling | Q34867624 | ||
| RAB11A is essential for transport of the influenza virus genome to the plasma membrane | Q35077509 | ||
| Human immunodeficiency virus rev-binding protein is essential for influenza a virus replication and promotes genome trafficking in late-stage infection | Q35192704 | ||
| Influenza virus hemagglutinin and neuraminidase, but not the matrix protein, are required for assembly and budding of plasmid-derived virus-like particles | Q35914321 | ||
| Asymmetric budding of viruses in epithelial monlayers: a model system for study of epithelial polarity | Q35995987 | ||
| Host cell dependence of viral morphology | Q36097986 | ||
| Assembly of enveloped viruses in Madin-Darby canine kidney cells: polarized budding from single attached cells and from clusters of cells in suspension | Q36207208 | ||
| Viral interactions with the cytoskeleton: a hitchhiker's guide to the cell | Q36392210 | ||
| The dynamic Rab11-FIPs | Q37597377 | ||
| Roles for the recycling endosome, Rab8, and Rab11 in hantavirus release from epithelial cells | Q38359719 | ||
| Replication-competent influenza A virus that encodes a split-green fluorescent protein-tagged PB2 polymerase subunit allows live-cell imaging of the virus life cycle | Q39437773 | ||
| Rab11-FIP3 binds dynein light intermediate chain 2 and its overexpression fragments the Golgi complex | Q39730359 | ||
| Rab11-FIP3 links the Rab11 GTPase and cytoplasmic dynein to mediate transport to the endosomal-recycling compartment | Q39760408 | ||
| Budding of filamentous and non-filamentous influenza A virus occurs via a VPS4 and VPS28-independent pathway | Q39838203 | ||
| Rab11-FIP3 is a Rab11-binding protein that regulates breast cancer cell motility by modulating the actin cytoskeleton | Q39867336 | ||
| Identification of the domains of the influenza A virus M1 matrix protein required for NP binding, oligomerization and incorporation into virions | Q40108978 | ||
| Cooperativity of actin and microtubule elements during replication of respiratory syncytial virus | Q40484028 | ||
| The M1 matrix protein controls the filamentous phenotype of influenza A virus | Q40576355 | ||
| A functional link between the actin cytoskeleton and lipid rafts during budding of filamentous influenza virions | Q40700277 | ||
| Filamentous particle formation by human parainfluenza virus type 2. | Q40886281 | ||
| Electron micrography of the virus of influenza | Q44880628 | ||
| Sendai virus budding in the course of an infection does not require Alix and VPS4A host factors | Q45404583 | ||
| P433 | issue | 6 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 1409-1415 | |
| P577 | publication date | 2012-12-01 | |
| P1433 | published in | Biochemical Society Transactions | Q864226 |
| P1476 | title | Role of the Rab11 pathway in negative-strand virus assembly | |
| P478 | volume | 40 |
| Q45324060 | A proteomic survey of Junín virus interactions with human proteins reveals host factors required for arenavirus replication. |
| Q56996774 | Advancements in Host-Based Interventions for Influenza Treatment |
| Q92921797 | Apical Trafficking Pathways of Influenza A Virus HA and NA via Rab17- and Rab23-Positive Compartments |
| Q36372754 | Critical role of Rab11a-mediated recycling endosomes in the assembly of type I parainfluenza viruses |
| Q27325318 | Critical role of the fusion protein cytoplasmic tail sequence in parainfluenza virus assembly |
| Q59350376 | Defective viral genomes alter how Sendai virus interacts with cellular trafficking machinery leading to heterogeneity in the production of viral particles among infected cells |
| Q38974742 | Histone deacetylase 6 inhibits influenza A virus release by downregulating the trafficking of viral components to the plasma membrane via its substrate, acetylated microtubules |
| Q39020339 | Host cell virus entry mediated by Australian bat lyssavirus G envelope glycoprotein occurs through a clathrin-mediated endocytic pathway that requires actin and Rab5. |
| Q30616850 | Influenza A virus uses intercellular connections to spread to neighboring cells |
| Q27330190 | Influenza a virus assembly intermediates fuse in the cytoplasm |
| Q45325020 | Influenza virus genome reaches the plasma membrane via a modified endoplasmic reticulum and Rab11-dependent vesicles |
| Q39076009 | Interferon Control of the Sterol Metabolic Network: Bidirectional Molecular Circuitry-Mediating Host Protection |
| Q38671426 | Intracellular Colocalization of Influenza Viral RNA and Rab11A is Dependent upon Microtubule Filaments |
| Q92480492 | Quantitative live cell imaging reveals influenza virus manipulation of Rab11A transport through reduced dynein association |
| Q41689780 | RSV glycoprotein and genomic RNA dynamics reveal filament assembly prior to the plasma membrane |
| Q38936377 | Rab33B and its autophagic Atg5/12/16L1 effector assist in hepatitis B virus naked capsid formation and release. |
| Q26752566 | Recycling Endosomes and Viral Infection |
| Q30543691 | The Us2 gene product of herpes simplex virus 2 is a membrane-associated ubiquitin-interacting protein |
| Q38694843 | The mycobacterial phosphatase PtpA regulates the expression of host genes and promotes cell proliferation |
| Q33730778 | The small GTPase RAB-11 directs polarized exocytosis of the intracellular pathogen N. parisii for fecal-oral transmission from C. elegans |
| Q37271683 | Transport of the influenza virus genome from nucleus to nucleus |
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